Page 14 - My FlipBook
P. 14
Sociedad de Químicos Cosmetólogos de México A.C. Innova
CONSECUENCIAS DEL ENVEJECIMIENTO radiación solar, pueden promover el incremento
DE LA PIEL de estos signos y están relacionados con el
daño celular en cada uno de los mecanismos
De manera global, los signos del envejecimiento estudiados, desencadenando desequilibrio,
están relacionados entre sí y desencadenan envejecimiento y muerte celular. A pesar de que se
múltiples efectos que llevan a la degradación y han encontrado moléculas que pueden disminuir
pérdida de homeostasis en la piel. Un enfoque el efecto de los mecanismos del envejecimiento
integral, que permita tratar los diferentes signos y aumentar la duración de la vida y disminución
y sus relaciones, puede brindar tratamientos que de consecuencias asociadas, existen aún muchos
disminuyan los efectos causados con la edad. La retos por delante en relación a la comprensión de
compilación de los signos del envejecimiento este proceso biológico complejo, que permitan el
relacionados con el grupo 1 y grupo 2, y los hallazgo de un tratamiento integral para aminorar
posibles blancos de tratamiento, han sido los los mecanismos aceleradores del envejecimiento
mecanismos más investigados en las células de en la piel.
la piel. Por otro lado, factores externos como la
REFERENCIAS 13. Fuck F. DNA Methylation and histone modifcations: Teaming up to silence 25. Widmer C, Gebauer JM, Brunstein E, Rosenbaum S, Zaucke F, Leeb T, Bau-
genes. 2005. El Sevier. 15, 490-495. mann U. 2012. Molecular basis for the action of the collagen-specifc chaperone
1. Lopez-Otın C, Blasco MA, Partridge L, Serrano M, Kroemer G. 2013. Review: 14. Gronniger, E., Weber, B., Heil, O., Peters, N., Stab, F., Wenck, H., Korn, B., Hsp47 / SERPINH1 and its structure-specifc client recognition. PNAS 109 (33)
The Hallmarks of Aging. Cell. 153, 1194 - 1217. Winnefeld, M., Lyko, F., 2010. Aging and chronic sun exposure cause distinct 13243–13247.
2. Tiggers J, Et al.2014. Review. The hallmarks of fbroblast ageing. Elsevier Ireland epigenetic changes in human skin. PLoS Genet. 6, e1000971. 26. Chondrogianni, N., Trougakos, I.P., Kletsas, D., Chen, Q.M., Gonos, E.S., 2008.
Ltda. 138, 26-44 15. Rajendran R, Garva R, Krstic-Demonacos M, Demonacos C . 2011. Sirtuins: Partial proteasome inhibition in human fbroblasts triggers accelerated M1
3. Burtner C, Kennedy B. 2010. Progeria syndromes and ageing: what is the molecular traffc lights in the crossroad of oxidative stress, chromatin remode- senescence or M2 crisis depending on p53 and Rb status. Aging Cell 7, 717–732.
connection? Nature Review. Molecular Cell Biology. 11, 567 – 578. lling, and transcription. J Biomed Biotechnol. 2011;2011:368276. 27. Bulteau, A.L., Moreau, M., Nizard, C., Friguet, B., 2007. Proteasome and pho-
4. Scaffdi P, Misteli T. 2008. Lamin A dependent misregulation of adult stem cells 16. Solabia Group. Fucogel ®. Technical data. 2012. 7-9. toaging: the effects of UV irradiation. Ann. N. Y. Acad. Sci. 1100, 280–290.
associated with accelerated ageing. Natural Cell Bilogy.10,453-459 17. Guarente, L. (2011). Sirtuins, aging, and metabolism. Cold Spring Harb. Symp. 28. Chondrogianni, N., Kapeta, S., Chinou, I., Vassilatou, K., Papassideri, I., Gonos,
5. Luo YB, Mitrpant C, Johnsen RD, Fabian VA, Fletcher S, Mastaglia FL, Wilton SD. Quant. Biol. 76, 81–90. E.S., 2010. Anti-ageing and rejuvenating effects of quercetin. Exp. Gerontol. 45,
Investigation of age-related changes in LMNA splicing and expression of proge- 18. Hartl, F.U., Bracher, A., Hayer-Hartl, M., 2011. Molecular chaperones in protein 763–771.
rin in human skeletal muscles. 2013. Int J Clin Exp Pathol. 6 (12):2778 - 2786. folding and proteostasis. Nature 475, 324–332 29. Fisher, G.J., Datta, S.C., Talwar, H.S., Wang, Z.Q., Varani, J., Kang, S., Voorhees, J.J.,
6. Yang SH, Qiao X, Fong LG, Young SG. 2008. Treatment with a farnesyltrans- 19. Cuervo, A.M., Bergamini, E., Brunk, U.T., Droge, W., Ffrench, M., Terman, A., 1996. Molecular basis of sun-induced premature skin ageing and retinoid antago-
ferase inhibitorimproves survival in mice with a Hutchinson-Gilford progeria 2005. Autophagy and aging: the importance of maintaining clean cells. Autophagy nism. Nature 379, 335–339.
syndrome mutation. Biochim Biophys Acta 1781, 36–39. 1, 131–140. 30. d’Adda di Fagagna, F., Reaper, P.M., Clay-Farrace, L., Fiegler, H., Carr, P., Von
7. Biotechmarine. Juvenessence ®. Technical data. 2012. Página consultada http:// 20. Rubinsztein, D.C., Marino, G., Kroemer, G., 2011. Autophagy and aging. Cell Zglinicki, T., Saretzki, G., Carter, N.P., Jackson, S.P., 2003. A DNA damage chec-
www.specialchem4cosmetics.com/services/news.aspx?id=8187. 146, 682–695. kpoint response in telomere-initiated senescence. Nature 426, 194–198.
8. Bekaert S, De Meyer T, Van Roostveldt P. 2005. Review: Telomere Attrition as 21. van Ham, T.J., Holmberg, M.A., van der Goot, A.T., Teuling, E., Garcia-Arencibia, 31. Waaijer, M.E., Parish, W.E., Strongitharm, B.H., van Heemst, D., Slagboom, P.E.,
Ageing Biomarker. Anticancer Res. 25, 3011-3022. M., Kim, H.E., Du, D., Thijssen, K.L., Wiersma, M., Burggraaff, R., van Bergeijk, P., de Craen, A.J., Sedivy, J.M., Westendorp, R.G., Gunn, D.A., Maier, A.B., 2012. The
9. Bodnar AG, Ouellette M, Frolkis M, Holt SE, Chiu CP, Morin GB, Harley CB, van Rheenen, J., Jerre van Veluw, G., Hofstra, R.M., Rubinsztein, D.C., Nollen, E.A., number of p16INK4a positive cells in human skin refects biological age. Aging
Shay JW, Lichtsteiner S, Wright WE. 1998. Extension of life-span by introduction 2010. Identifcation of MOAG-4/SERF as a regulator of age-related proteotoxi- Cell 11, 722–725.
of telomerase into normal human cells. Science. 279, 349–352. city. Cell 142, 601–6 33. Parrinello, S., Coppe, J.P., Krtolica, A., Campisi, J., 2005. Stromal-epithelial
10. SEDERMA. Renovage ®. Technical data. 2012. Página consultada: http:// 22. Westerheide, S.D., Anckar, J., Stevens, S.M., Jr., Sistonen, L., and Morimoto, R.I. interactions in aging and cancer: senescent fbroblasts alter epithelial cell
www.cosmeticsdesign.com/smartlead/view/199652/4/Renovage-Extend-your- (2009). Stress-inducible regulation of heat shock factor 1 by the deacetylase differentiation. J. Cell Sci. 118, 485–496.
skin-s-youthspan SIRT1. Science 323, 1063–1066. 34. Nelson, G., Wordsworth, J., Wang, C., Jurk, D., Lawless, C., Martin-Ruiz, C.,
11. Chen, I.P., Henning, S., Faust, A., Boukamp, P., Volkmer, B., Greinert, R., 23. Calamini, B., Silva, M.C., Madoux, F., Hutt, D.M., Khanna, S., Chalfant, M.A. von Zglinicki, T., 2012. A senescent cell bystander effect: senescence-induced
2012. UVAinduced epigenetic regulation of P16(INK4a) in human epidermal Saldanha, S.A., Hodder, P., Tait, B.D., Garza, D., et al. (2012). Small-molecule senescence. Aging Cell 11, 345–349.
keratinocytes and skin tumor derived cells. Photochem. Photobiol. Sci.: Off. J. Eur. proteostasis regulators for protein conformational diseases. Nat. Chem. Biol.8, 35. Quan, T., Qin, Z., Robichaud, P., Voorhees, J.J., Fisher, G.J., 2011. CCN1
Photochem. Assoc. Eur. Soc. Photobiol. 11, 180–190. 185–196. contributes to skin connective tissue aging by inducing age-associated secretory
12. Katiyar, S.K., Singh, T., Prasad, R., Sun, Q., Vaid, M., 2012. Epigenetic alterations in 24. Haarmann-Stemmann T, Boege F, Krutmann J. 2013. Skin: Mild Heat phenotype in human skin dermal fbroblasts. J. Cell Commun. Signal. 5, 201–207.
ultraviolet radiation-induced skin carcinogenesis: interaction of bioactive dietary Exposure Protects against UVB-induced Photoaging in Mice. J Invest Dermatol.
components on epigenetic targets. Photochem. Photobiol. 88, 1066–1074. 133, 868–871.
14
Noviembre 2015
